Speech Recognition Method and Mobile Terminal

ABSTRACT

A speech recognition method and a mobile terminal relate to the field of electronic and information technologies, and can flexibly perform speech collection and improve a speech recognition rate. The method includes acquiring, by a mobile terminal, an orientation/motion status of the mobile terminal, and determining, according to the orientation/motion status, a voice collection apparatus for voice collection; acquiring, by the mobile terminal, a speech signal from the voice collection apparatus; and recognizing, by the mobile terminal, the speech signal. The present disclosure is applied to a scenario in which the mobile terminal performs speech recognition.

CROSS-REFERENCE TO RELATED APPLICATIONS

This application is a continuation of International Application No.PCT/CN2014/090109, filed on Oct. 31, 2014, which claims priority toChinese Patent Application No. 201410138393.2, filed on Apr. 8, 2014.The disclosures of the aforementioned applications are herebyincorporated by reference in their entireties.

TECHNICAL FIELD

The present disclosure relates to the field of electronic andinformation technologies, and in particular, to a speech recognitionmethod and a mobile terminal.

BACKGROUND

At the current stage, speech recognition technologies are more widelyapplied to mobile terminals, for example, speech input and speechcontrol. However, ambient noise and ambient interference affect speechrecognition and reduce a rate at which a mobile terminal recognizesspeech. To eliminate impact of ambient noise and ambient interference onspeech recognition, a microphone array may be installed on a mobileterminal, and the mobile terminal performs a synchronous additionoperation on acquired voice signals to strengthen target voice, or mayperform a synchronous subtraction operation on voice signals acquired bythe microphone array to suppress noise, so as to recognize the processedvoice signals.

However, when a distance between a user and a mobile terminal isrelatively long, it is difficult to distinguish voice of the user andambient noise, and the mobile terminal usually processes the voice ofthe user as ambient noise, which results in that a recognition rate of aprocessed speech signal decreases.

SUMMARY

Embodiments of the present disclosure provide a speech recognitionmethod and a mobile terminal, which can perform speech collection andrecognition in a more flexible manner, and improve a recognition rate ofa speech signal.

The following technical solutions are used in the embodiments of thepresent disclosure.

According to a first aspect, an embodiment of the present disclosureprovides a speech recognition method, including acquiring, by a mobileterminal, a distance to a user, and determining, according to thedistance to the user, a voice collection apparatus for voice collection,where the voice collection apparatus includes a microphone array in themobile terminal or a wearable voice collection apparatus; acquiring, bythe mobile terminal, a speech signal from the voice collectionapparatus, where the speech signal is obtained by converting voicecollected by the voice collection apparatus; and recognizing, by themobile terminal, the speech signal.

With reference to the first aspect, in a first possible implementationmanner, the determining, according to the distance to the user, a voicecollection apparatus for voice collection includes determining whetherthe distance is less than a distance threshold, and if the distance isless than the distance threshold, determining to use the microphonearray as the voice collection apparatus, and the acquiring, by themobile terminal, a speech signal from the voice collection apparatusincludes acquiring, by the mobile terminal, the speech signal using themicrophone array in the mobile terminal, where the speech signal isobtained by converting voice collected by the microphone array.

With reference to the first aspect or the first possible implementationmanner of the first aspect, in a second possible implementation manner,the determining, according to the distance to the user, a voicecollection apparatus for voice collection includes determining whetherthe distance is less than the distance threshold, and if the distance isnot less than the distance threshold, determining to use the wearablevoice collection apparatus as the voice collection apparatus, theacquiring, by the mobile terminal, a speech signal from the voicecollection apparatus includes acquiring, by the mobile terminal, thespeech signal using the wearable voice collection apparatus, where thespeech signal is obtained by converting voice collected by the wearablevoice collection apparatus, and the recognizing, by the mobile terminal,the speech signal includes performing, by the mobile terminal,voiceprint recognition and semantic recognition on the acquired speechsignal.

According to a second aspect, an embodiment of the present disclosureprovides a speech recognition method, including acquiring, by a mobileterminal, an orientation/motion status of the mobile terminal, anddetermining, according to the orientation/motion status, a voicecollection apparatus for voice collection, where the orientation/motionstatus indicates an orientation or a motion status of the mobileterminal, and the voice collection apparatus includes a microphone arrayin the mobile terminal or a wearable voice collection apparatus;acquiring, by the mobile terminal, a speech signal from the voicecollection apparatus, where the speech signal is obtained by convertingvoice collected by the voice collection apparatus; and recognizing thespeech signal, for example, performing voiceprint recognition andsemantic recognition.

With reference to the second aspect, in a first possible implementationmanner, the orientation/motion status includes at least a proximitydistance, and the determining, according to the orientation/motionstatus, a voice collection apparatus for voice collection includescollecting, by the mobile terminal, voice using the microphone array inthe mobile terminal, and acquiring the speech signal from the microphonearray if the proximity distance is less than or equal to a firstthreshold.

With reference to the second aspect, in a second possible implementationmanner, the orientation/motion status includes at least a proximitydistance, and the determining, according to the orientation/motionstatus, a voice collection apparatus for voice collection includescollecting, by the mobile terminal, voice using the wearable voicecollection apparatus, acquiring the speech signal from the wearablevoice collection apparatus, and processing the speech signal if theproximity distance is greater than a first threshold.

With reference to the second aspect, in a third possible implementationmanner, the orientation/motion status includes at least a proximitydistance and a proximity distance change rate, and the determining,according to the orientation/motion status, a voice collection apparatusfor voice collection includes collecting, by the mobile terminal, voiceusing the microphone array in the mobile terminal, and acquiring thespeech signal from the microphone array if the proximity distance isless than or equal to a first threshold and the proximity distancechange rate is less than or equal to a second threshold.

With reference to the second aspect, in a fourth possible implementationmanner, the orientation/motion status includes at least a proximitydistance and a proximity distance change rate, and the determining,according to the orientation/motion status, a voice collection apparatusfor voice collection includes collecting, by the mobile terminal, voiceusing the wearable voice collection apparatus, acquiring the speechsignal from the wearable voice collection apparatus if the proximitydistance is greater than a first threshold or the proximity distancechange rate is greater than a second threshold, and processing thespeech signal.

With reference to the second aspect, in a fifth possible implementationmanner, the orientation/motion status includes a proximity distance, aproximity distance change rate, a horizontal tilt, a horizontal tiltchange rate, an acceleration change rate, and an azimuth change rate,and the determining, according to the orientation/motion status, a voicecollection apparatus for voice collection includes collecting, by themobile terminal, voice using the microphone array in the mobile terminalif the proximity distance is less than or equal to a first threshold,the proximity distance change rate is less than or equal to a secondthreshold, the horizontal tilt is within a preset range, the horizontaltilt change rate is less than or equal to a third threshold, theacceleration change rate is less than or equal to a fourth threshold,and the azimuth change rate is less than or equal to a fifth threshold,using and acquiring the speech signal from the microphone array in themobile terminal.

With reference to the second aspect, in a sixth possible implementationmanner, the orientation/motion status includes a proximity distance, aproximity distance change rate, a horizontal tilt, a horizontal tiltchange rate, an acceleration change rate, and an azimuth change rate,and the determining, according to the orientation/motion status, a voicecollection apparatus for voice collection includes, if the proximitydistance is greater than a first threshold, the proximity distancechange rate is greater than a second threshold, the horizontal tiltexceeds a preset range, the horizontal tilt change rate is greater thana third threshold, the acceleration change rate is greater than a fourththreshold, or the azimuth change rate is greater than a fifth threshold,collecting, by the mobile terminal, voice using the wearable voicecollection apparatus, acquiring the speech signal from the wearablevoice collection apparatus, and processing the speech signal.

With reference to the second aspect, in a seventh possibleimplementation manner, the orientation/motion status includes aproximity distance, a proximity distance change rate, a horizontal tilt,a horizontal tilt change rate, an acceleration change rate, and anazimuth change rate, and the determining, according to theorientation/motion status, a voice collection apparatus for voicecollection includes detecting whether the proximity distance is greaterthan a first threshold if the proximity distance change rate is greaterthan a second threshold, the horizontal tilt exceeds a preset range, thehorizontal tilt change rate is greater than a third threshold, theacceleration change rate is greater than a fourth threshold, or theazimuth change rate is greater than a fifth threshold, and acquiring, bythe mobile terminal, the speech signal from the wearable voicecollection apparatus if the proximity distance is greater than the firstthreshold, and processing the speech signal.

With reference to the second aspect, in an eighth possibleimplementation manner, the orientation/motion status includes aproximity distance, a proximity distance change rate, a horizontal tilt,a horizontal tilt change rate, an acceleration change rate, and anazimuth change rate, the determining, according to theorientation/motion status, a voice collection apparatus for voicecollection includes, if the proximity distance change rate is greaterthan a second threshold, the horizontal tilt exceeds a preset range, thehorizontal tilt change rate is greater than a third threshold, theacceleration change rate is greater than a fourth threshold, or theazimuth change rate is greater than a fifth threshold, detecting whetherthe proximity distance is greater than a first threshold, andcollecting, by the mobile terminal, voice using the microphone array inthe mobile terminal and the wearable voice collection apparatus if theproximity distance is less than or equal to the first threshold, andacquiring a mixed speech signal, and processing the mixed speech signal,where the mixed speech signal is obtained by converting voice collectedby the microphone array in the mobile terminal and the wearable voicecollection apparatus.

According to a third aspect, an embodiment of the present disclosureprovides a mobile terminal that includes a microphone array, where themobile terminal includesa collection apparatus determining moduleconfigured to acquire a distance to a user, and determine, according tothe distance to the user, a voice collection apparatus for voicecollection, where the voice collection apparatus includes the microphonearray in the mobile terminal or a wearable voice collection apparatus; aspeech acquiring module configured to acquire a speech signal from thevoice collection apparatus, where the speech signal is obtained byconverting voice collected by the voice collection apparatus; and aspeech recognition module configured to recognize the speech signal.

With reference to the third aspect, in a first possible implementationmanner, the collection apparatus determining module is configured toacquire a distance to a user, determine whether the distance is lessthan a distance threshold, and if the distance is less than the distancethreshold, determine to use the microphone array as the voice collectionapparatus, and the speech acquiring module is configured to acquire thespeech signal using the microphone array in the mobile terminal, wherethe speech signal is obtained by converting voice collected by themicrophone array.

With reference to the third aspect or the first possible implementationmanner of the third aspect, in a second possible implementation manner,the collection apparatus determining module is configured to acquire adistance to a user, determine whether the distance is less than adistance threshold, and if the distance is not less than the distancethreshold, determine to use the wearable voice collection apparatus asthe voice collection apparatus; the speech acquiring module isconfigured to acquire the speech signal using the wearable voicecollection apparatus, where the speech signal is obtained by convertingvoice collected by the wearable voice collection apparatus; and thespeech acquiring module is configured to perform voiceprint recognitionand semantic recognition on the acquired speech signal.

According to a fourth aspect, an embodiment of the present disclosureprovides a mobile terminal that includes a microphone array, where themobile terminal includesa collection apparatus determining moduleconfigured to acquire an orientation/motion status of the mobileterminal, and determine, according to the orientation/motion status, avoice collection apparatus for voice collection, where theorientation/motion status indicates an orientation or a motion status ofthe mobile terminal, and the voice collection apparatus includes awearable voice collection apparatus or the microphone array; a speechacquiring module configured to acquire a speech signal from the voicecollection apparatus, where the speech signal is obtained by convertingvoice collected by the voice collection apparatus; and a speechrecognition module configured to recognize the speech signal.

With reference to the fourth aspect, in a first possible implementationmanner, the orientation/motion status includes at least a proximitydistance, and the collection apparatus determining module is configuredto acquire the proximity distance, and if the proximity distance is lessthan or equal to a first threshold, determine to collect voice using themicrophone array.

With reference to the fourth aspect, in a second possible implementationmanner, the orientation/motion status includes at least a proximitydistance, and the collection apparatus determining module is configuredto acquire the proximity distance, and if the proximity distance isgreater than a first threshold, determine to collect voice using thewearable voice collection apparatus.

With reference to the fourth aspect, in a third possible implementationmanner, the orientation/motion status includes at least a proximitydistance and a proximity distance change rate, and the collectionapparatus determining module is configured to acquire the proximitydistance and the proximity distance change rate, and if the proximitydistance is less than or equal to a first threshold, and the proximitydistance change rate is less than or equal to a second threshold,determine to collect voice using the microphone array.

With reference to the fourth aspect, in a fourth possible implementationmanner, the orientation/motion status includes at least a proximitydistance and a proximity distance change rate, and the collectionapparatus determining module is configured to acquire the proximitydistance and the proximity distance change rate, and if the proximitydistance is greater than a first threshold, or the proximity distancechange rate is greater than a second threshold, determine to collectvoice using the wearable voice collection apparatus.

With reference to the fourth aspect, in a fifth possible implementationmanner, the orientation/motion status includes a proximity distance, aproximity distance change rate, a horizontal tilt, a horizontal tiltchange rate, an acceleration change rate, and an azimuth change rate,and the collection apparatus determining module is configured to acquirethe proximity distance, the proximity distance change rate, thehorizontal tilt, the horizontal tilt change rate, the accelerationchange rate, and the azimuth change rate, and if the proximity distanceis less than or equal to a first threshold, the proximity distancechange rate is less than or equal to a second threshold, the horizontaltilt is within a preset range, the horizontal tilt change rate is lessthan or equal to a third threshold, the acceleration change rate is lessthan or equal to a fourth threshold, and the azimuth change rate is lessthan or equal to a fifth threshold, determine to collect voice using themicrophone array.

With reference to the fourth aspect, in a sixth possible implementationmanner, the orientation/motion status includes a proximity distance, aproximity distance change rate, a horizontal tilt, a horizontal tiltchange rate, an acceleration change rate, and an azimuth change rate,and the collection apparatus determining module is configured to acquirethe proximity distance, the proximity distance change rate, thehorizontal tilt, the horizontal tilt change rate, the accelerationchange rate, and the azimuth change rate, and if the proximity distanceis greater than a first threshold, the proximity distance change rate isgreater than a second threshold, the horizontal tilt exceeds a presetrange, the horizontal tilt change rate is greater than a thirdthreshold, the acceleration change rate is greater than a fourththreshold, or the azimuth change rate is greater than a fifth threshold,determine to collect voice using the wearable voice collectionapparatus.

With reference to the fourth aspect, in a seventh possibleimplementation manner, the orientation/motion status includes aproximity distance, a proximity distance change rate, a horizontal tilt,a horizontal tilt change rate, an acceleration change rate, and anazimuth change rate, and the collection apparatus determining module isconfigured to acquire the proximity distance, the proximity distancechange rate, the horizontal tilt, the horizontal tilt change rate, theacceleration change rate, and the azimuth change rate, if the proximitydistance change rate is greater than a second threshold, the horizontaltilt exceeds a preset range, the horizontal tilt change rate is greaterthan a third threshold, the acceleration change rate is greater than afourth threshold, or the azimuth change rate is greater than a fifththreshold, detect whether the proximity distance is greater than a firstthreshold, and if the proximity distance is greater than the firstthreshold, determine to collect voice using the wearable voicecollection apparatus.

With reference to the fourth aspect, in an eighth possibleimplementation manner, the orientation/motion status includes aproximity distance, a proximity distance change rate, a horizontal tilt,a horizontal tilt change rate, an acceleration change rate, and anazimuth change rate, and the collection apparatus determining module isconfigured to acquire the proximity distance, the proximity distancechange rate, the horizontal tilt, the horizontal tilt change rate, theacceleration change rate, and the azimuth change rate, if the proximitydistance change rate is greater than a second threshold, the horizontaltilt exceeds a preset range, the horizontal tilt change rate is greaterthan a third threshold, the acceleration change rate is greater than afourth threshold, or the azimuth change rate is greater than a fifththreshold, detect whether the proximity distance is greater than a firstthreshold, and if the proximity distance is less than or equal to thefirst threshold, determine to collect voice using the microphone arrayin the mobile terminal and the wearable voice collection apparatus, andacquire a mixed speech signal.

According to the speech recognition method and the mobile terminalprovided in the embodiments of the present disclosure, a mobile terminalcan acquire an orientation/motion status of the mobile terminal, anddetermine, according to the orientation/motion status, a voicecollection apparatus for voice collection; acquire a speech signal fromthe voice collection apparatus; and perform voiceprint recognition andsemantic recognition on the speech signal. Compared with the prior artin which a speech signal is acquired from an electronic skin tattooregardless of a distance between a user and a mobile terminal, in thissolution, a suitable voice collection apparatus is selected according toan orientation/motion status of a mobile terminal, and voice iscollected using the suitable voice collection apparatus in differentscenarios, which improves a precision rate of speech recognition.

BRIEF DESCRIPTION OF DRAWINGS

FIG. 1 is a schematic diagram of a speech recognition system accordingto an embodiment of the present disclosure;

FIG. 2A is a flowchart of a speech recognition method according to anembodiment of the present disclosure;

FIG. 2B is a flowchart of a specific implementation manner of a speechrecognition method according to an embodiment of the present disclosure;

FIG. 3A is a flowchart of a specific implementation manner of a speechrecognition method according to an embodiment of the present disclosure;

FIG. 3B is a flowchart of another specific implementation manner of aspeech recognition method according to an embodiment of the presentdisclosure;

FIG. 3C is a flowchart of still another specific implementation mannerof a speech recognition method according to an embodiment of the presentdisclosure;

FIG. 3D is a flowchart of yet another specific implementation manner ofa speech recognition method according to an embodiment of the presentdisclosure;

FIG. 4 is a diagram of an operating principle of acquiring a speechsignal by simultaneously using a wearable voice collection apparatus anda microphone array according to an embodiment of the present disclosure;

FIG. 5A is a schematic structural diagram of a mobile terminal accordingto an embodiment of the present disclosure;

FIG. 5B is a schematic structural diagram of a mobile terminal accordingto an embodiment of the present disclosure; and

FIG. 6 is a schematic structural diagram of a smartphone according to anembodiment of the present disclosure.

DESCRIPTION OF EMBODIMENTS

The technical solutions provided in the embodiments of the presentdisclosure are applied to a speech recognition system, and can use asuitable voice collection apparatus to collect voice in differentscenarios and generate a speech signal that is needed to perform speechrecognition and semantic recognition. A schematic diagram of the speechrecognition system is shown in FIG. 1. When a mobile terminal 102 startsan application such as speech recognition application and speechassistance application, the mobile terminal 102 selects a suitable voicecollection apparatus according to a change 104 of a distance to a user101 or another orientation/motion status of the mobile terminal 102. Thevoice collection apparatus includes a microphone array in the mobileterminal and a wearable voice collection apparatus, and the wearablevoice collection apparatus may be an electronic skin tattoo 103, or maybe a bone conduction microphone 105, as shown in FIG. 1.

An embodiment of the present disclosure provides a speech recognitionmethod. As shown in FIG. 2A, the method includes:

201. A mobile terminal acquires an orientation/motion status of themobile terminal, and determines, according to the orientation/motionstatus, a voice collection apparatus for voice collection.

The orientation/motion status indicates an orientation or a motionstatus of the mobile terminal. The voice collection apparatus includes amicrophone array in the mobile terminal or a wearable voice collectionapparatus. The wearable voice collection apparatus may be an electronicskin tattoo worn on the throat of a user, or may be a bone conductionmicrophone worn in a cochlea, or the like. The mobile terminal selects,according to the orientation/motion status of the mobile terminal, avoice collection apparatus for voice collection.

It should be noted that the mobile terminal may communicate with thewearable voice collection apparatus using a short-range wirelesscommunication manner, where the short-range wireless communicationmanner may be a communication manner such as ZigBee®, Ultra-Wideband(UWB), wireless local area network (WLAN or Wi-Fi), Bluetooth, or NearField Communication (NFC). The mobile terminal communicates with thewearable voice collection apparatus using a short-range wirelesscommunication manner, which may be implemented by predefining aconnection relationship, for example, performing pairing setting inadvance, or entering a password to authenticate a connection between themobile terminal and the wearable voice collection apparatus.

Optionally, the orientation/motion status includes at least a proximitydistance, and the orientation/motion status may further include aproximity distance change rate, a horizontal tilt, a horizontal tiltchange rate, an acceleration change rate, an azimuth change rate, andthe like. It should be noted that the orientation/motion status may bemeasured using various sensors, for example, sensors such as a proximitysensor, an acceleration sensor, and an electronic compass sensor, in themobile terminal. The proximity sensor usually includes atransmitter-detector pair, and an infrared or ultrasonic transmitter andan infrared or ultrasonic detector may be combined. A transmittertransmits an optical signal, and a detector receives an optical signalobtained when a detected target reflects or scatters the optical signaltransmitted by the transmitter, and estimates a distance between thedetector and the detected target according to strength of the opticalsignal. The proximity sensor usually detects a stationary or a movingobject, when a detected target is near or far away from the proximitysensor, the detector detects an increase or a decrease of lightintensity, and when the detector detects no returned light intensity, itcan be determined that the detected target does not exist or is faraway, where in this solution, the detected target may be a user.

202. The mobile terminal acquires a speech signal from the voicecollection apparatus.

The speech signal is obtained by converting voice collected by the voicecollection apparatus. The mobile terminal selects a suitable voicecollection apparatus according to the orientation/motion status of themobile terminal that is acquired in step 201, collects voice using thevoice collection apparatus, and obtains the speech signal by convertingthe collected voice.

203. The mobile terminal recognizes the speech signal.

The speech signal may be recognized using a voiceprint recognition andsemantic recognition technology, and voiceprint recognition and semanticrecognition may be performed on the speech signal using a conventionalmeans.

According to the speech recognition method provided in this embodimentof the present disclosure, a mobile terminal can acquire anorientation/motion status of the mobile terminal, and determine,according to the orientation/motion status, a voice collection apparatusfor voice collection; acquire a speech signal from the voice collectionapparatus; and recognize the speech signal. Compared with the prior artin which a speech signal is acquired from an electronic skin tattooregardless of a distance between a user and a mobile terminal, in thissolution, a suitable voice collection apparatus is selected according toan orientation/motion status of a mobile terminal, and voice iscollected using the suitable voice collection apparatus in differentscenarios, to obtain a speech signal.

As a more specific solution of the foregoing embodiment, in a case inwhich a distance between a mobile terminal and a user is used as anorientation/motion status, as shown in FIG. 2B, the speech recognitionmethod provided in this embodiment of the present disclosure includes:

201 b. The mobile terminal acquires a distance to a user, anddetermines, according to the distance to the user, a voice collectionapparatus for voice collection.

The voice collection apparatus includes a microphone array in the mobileterminal or a wearable voice collection apparatus. The mobile terminalcan detect the distance to the user using a sensor. For example, thedistance between the mobile terminal and the user is determined bydetecting a moving status or a location of the user. Alternatively, theuser carries an accessory module, and the distance between the mobileterminal and the user is determined by detecting a distance between themobile terminal and the module.

In a specific application of this embodiment, in a manner, the distanceto the user is determined, and if the distance to the user is less thana distance threshold, it is determined that voice is to be collectedusing the microphone array, and in another manner, the distance to theuser is determined, and if the distance to the user is not less than adistance threshold, it is determined that voice is to be collected usingthe wearable voice collection apparatus.

202 b. The mobile terminal acquires a speech signal from the voicecollection apparatus.

The speech signal is obtained by converting voice collected by the voicecollection apparatus.

203 b. The mobile terminal recognizes the speech signal.

If voice is to be collected using the wearable voice collectionapparatus, the wearable voice collection apparatus may be an electronicskin tattoo worn on the throat of a user, or may be a bone conductionmicrophone worn in a cochlea. The speech signal may be recognized bymeans of voiceprint recognition and semantic recognition, and in thisembodiment, the mobile terminal can recognize voice more accurately, andalso determine a voice source more accurately.

Further, in a specific implementation manner, based on the solutionshown in FIG. 2A, this embodiment of the present disclosure furtherprovides a specific solution of the speech recognition method, and inthis solution, the orientation/motion status includes at least aproximity distance and a proximity distance change rate. In thissolution, a process of performing step 201 in the solution shown in FIG.2A is described in further detail, and step 201 may be implemented assteps 2011 a to 2013 a. As shown in FIG. 3A, step 201 includes:

2011 a. The mobile terminal acquires the orientation/motion status ofthe mobile terminal.

The orientation/motion status includes at least the proximity distance,and the proximity distance is usually a distance between the face oranother part of a user to the mobile terminal.

2012 a. If the proximity distance is less than or equal to a firstthreshold, the mobile terminal collects voice using the microphone arrayin the mobile terminal, and acquires the speech signal from themicrophone array.

The first threshold may be set by the user according to an actual case,or may be automatically set by the mobile terminal according to ahistory record. The mobile terminal selects the microphone array tocollect voice, the microphone array processes the collected voice toobtain the speech signal, and the mobile terminal acquires the speechsignal from the microphone array.

2013 a. If the proximity distance is greater than a first threshold, themobile terminal collects voice using the wearable voice collectionapparatus, acquires the speech signal from the wearable voice collectionapparatus, and processes the speech signal.

It should be noted that the orientation/motion status may beperiodically measured using a sensor in the mobile terminal. In thisembodiment of the present disclosure, the proximity distance may beperiodically measured using a proximity sensor, and the voice collectionapparatus for voice collection is selected according to the proximitydistance. Preferably, a measurement frequency ranges from 20 hertz (Hz)to 40 Hz. The mobile terminal selects the wearable voice collectionapparatus to collect voice, and performs processing to obtain a speechsignal corresponding to the collected voice. However, voice of a user iscollected using the wearable voice collection apparatus, voice isconducted using visceral tissue of a body, and transmission speeds andenergy attenuation rules of voice in different media are different;therefore, characteristics of extracted voice of the user are completelydifferent. Therefore, digital filtering processing needs to be performedon collected voice to recover as much as possible characteristics of thevoice as being transmitted through air. In a feasible method, the mobileterminal performs digital filtering processing on voice collected by thewearable voice collection apparatus, and enhances a low-frequency partand suppresses a high-frequency part, to obtain an approximate frequencyproperty of the voice as being transmitted through air, so that anoutput speech signal has a relatively flat frequency response in aspeech frequency band. In another feasible method, after performingdigitization processing and a filtering operation on collected voice,the wearable voice collection apparatus sends the processed voice to themobile terminal using a short-range wireless communications technology,to perform further processing.

In a specific application, the mobile terminal may create a workingmode, and use the working mode to associate an orientation/motion statusof the mobile terminal with a voice collection apparatus to be used.

In a specific application, a correspondence between data measured by aproximity sensor and a voice collection apparatus for voice collectionis shown in Table 1:

TABLE 1 Voice collection apparatus for voice Proximity sensor collectionIn a measurement period, an average Microphone array value of proximitydistances is less than or equal to a first threshold In a measurementperiod, an average Wearable voice value of proximity distances iscollection apparatus greater than a first threshold

According to the speech recognition method provided in this embodimentof the present disclosure, a mobile terminal can acquire anorientation/motion status of the mobile terminal, where theorientation/motion status includes at least a proximity distance. Whenthe proximity distance is less than or equal to a first threshold, themobile terminal collects voice using a microphone array in the mobileterminal, and acquires a speech signal from the microphone array; orwhen the proximity distance is greater than a first threshold, themobile terminal collects voice using a wearable voice collectionapparatus, acquires a speech signal from the wearable voice collectionapparatus, and recognizes the speech signal. Compared with the prior artin which a speech signal is acquired from an electronic skin tattooregardless of a distance between a user and a mobile terminal, in thissolution, a suitable voice collection apparatus is selected according toan orientation/motion status of a mobile terminal, and voice iscollected using the suitable voice collection apparatus in differentscenarios, to obtain a speech signal, which improves a precision rate ofspeech recognition.

Further, in a specific implementation manner, based on the solutionshown in FIG. 2A, this embodiment of the present disclosure furtherprovides a specific solution of the speech recognition method, and inthis solution, the orientation/motion status includes a proximitydistance and a proximity distance change rate. In this solution, aprocess of performing step 201 in the solution shown in FIG. 2A isdescribed in further detail, and step 201 may be implemented as steps2011 b to 2013 b. As shown in FIG. 3B, step 201 includes:

2011 b. The mobile terminal acquires the orientation/motion status ofthe mobile terminal.

The orientation/motion status includes the proximity distance and theproximity distance change rate, and the proximity distance is usually adistance between the face or another part of a user to the mobileterminal.

2012 b. If the proximity distance is less than or equal to a firstthreshold, and the proximity distance change rate is less than or equalto a second threshold, the mobile terminal collects voice using themicrophone array in the mobile terminal, and acquires the speech signalfrom the microphone array.

The mobile terminal determines, according to the orientation/motionstatus of the mobile terminal, a voice collection apparatus to be used.The first threshold and the second threshold may be set by the useraccording to an actual case, or may be automatically set by the mobileterminal according to a history record. The mobile terminal selects themicrophone array to collect voice, the microphone array processes thecollected voice to obtain the speech signal, and the mobile terminalacquires the speech signal from the microphone array.

It should be noted that the orientation/motion status may be measuredusing various sensors in the mobile terminal. A proximity sensor in themobile terminal periodically performs measurement, and obtains by meansof calculation a proximity distance change rate that is in multiplecontinuous measurement periods. For example, a measurement frequency is40 Hz, that is, a measurement period is 1.5 seconds (s). Preferably, ameasurement frequency ranges from 20 Hz to 40 Hz.

In a specific application, the mobile terminal may create a workingmode, and use the working mode to associate an orientation/motion statusof the mobile terminal with a voice collection apparatus to be used. Forexample, the mobile terminal creates a working mode A, when a proximitysensor of the mobile terminal discovers by means of measurement that theproximity distance is less than or equal to the first threshold, and theproximity distance change rate is less than or equal to the secondthreshold, the working mode A is started, and the mobile terminalcollects voice using the microphone array, and acquires the speechsignal from the microphone array.

2013 b. If the proximity distance is greater than a first threshold, orthe proximity distance change rate is greater than a second threshold,the mobile terminal collects voice using the wearable voice collectionapparatus, acquires the speech signal from the wearable voice collectionapparatus, and processes the speech signal.

The mobile terminal determines, according to the orientation/motionstatus of the mobile terminal, a voice collection apparatus to be used.The first threshold and the second threshold may be set by the useraccording to an actual case, or may be automatically set by the mobileterminal according to a history record. The mobile terminal selects thewearable voice collection apparatus to collect voice, and performsprocessing to obtain a speech signal corresponding to the collectedvoice. However, voice of a user is collected using the wearable voicecollection apparatus, voice is conducted using visceral tissue of abody, and transmission speeds and energy attenuation rules of voice indifferent media are different; therefore, characteristics of extractedvoice of the user are completely different. Therefore, digital filteringprocessing needs to be performed on collected voice to recover as muchas possible characteristics of the voice as being transmitted throughair. In a feasible method, the mobile terminal performs digitalfiltering processing on voice collected by the wearable voice collectionapparatus, and enhances a low-frequency part and suppresses ahigh-frequency part, to obtain an approximate frequency property of thevoice as being transmitted through air, so that an output speech signalhas a relatively flat frequency response in a speech frequency band. Inanother feasible method, after performing digitization processing and afiltering operation on collected voice, the wearable voice collectionapparatus sends the processed voice to the mobile terminal using ashort-range wireless communications technology, to perform furtherprocessing.

It should be noted that the orientation/motion status may be measuredusing various sensors in the mobile terminal. A proximity sensor in themobile terminal periodically performs measurement, and obtains by meansof calculation a proximity distance change rate that is in multiplecontinuous measurement periods. For example, a measurement frequency is40 Hz, that is, a measurement period is 1.5 s. Preferably, a measurementfrequency ranges from 20 Hz to 40 Hz.

In a specific application, the mobile terminal may create a workingmode, and use the working mode to associate an orientation/motion statusof the mobile terminal with a voice collection apparatus to be used. Forexample, the mobile terminal creates a working mode B, when a proximitysensor of the mobile terminal discovers by means of measurement that theproximity distance is greater than the first threshold or the proximitydistance change rate is greater than the second threshold, the workingmode B is started, and the mobile terminal collects voice using thewearable voice collection apparatus, and acquires, from the wearablevoice collection apparatus, the speech signal obtained by means ofprocessing.

The mobile terminal measures related data of the orientation/motionstatus using a proximity sensor, and the mobile terminal determines,with reference to the data measured by the proximity sensor, the voicecollection apparatus for voice collection. For example, when the mobileterminal is turned over by a user, the orientation/motion status of themobile terminal continuously changes, the detected proximity distancealso rapidly changes, and consequently the detected proximity distancechange rate is relatively large. When the proximity distance change rateis greater than the second threshold, although the proximity distance isless than or equal to the first threshold, in consideration of both theproximity distance and the proximity distance change rate, the mobileterminal selects the wearable voice collection apparatus to collectvoice. In this case, in multiple continuous measurement periods, themobile terminal determines, according to various suitable presetthresholds and a change rate of data of the orientation/motion statusdetected by the proximity sensor, the voice collection apparatus to beused by the mobile terminal. In a specific application, a correspondencebetween data measured by a proximity sensor and a voice collectionapparatus for voice collection is shown in Table 2:

TABLE 2 Voice collection apparatus for voice Proximity sensor collectionIn a measurement period, an average Microphone array value of proximitydistances is less than or equal to a first threshold, and a proximitydistance change rate is less than or equal to a second threshold In ameasurement period, an average Wearable voice value of proximitydistances is less collection apparatus than or equal to a firstthreshold, and a proximity distance change rate is greater than a secondthreshold In a measurement period, an average value of proximitydistances is greater than a first threshold, and a proximity distancechange rate is less than or equal to a second threshold In a measurementperiod, an average value of proximity distances is greater than a firstthreshold, and a proximity distance change rate is greater than a secondthreshold

According to the speech recognition method provided in this embodimentof the present disclosure, a mobile terminal can acquire anorientation/motion status of the mobile terminal, and determine,according to a proximity distance and a proximity distance change ratein the orientation/motion status, a voice collection apparatus for voicecollection; when the proximity distance is less than or equal to a firstthreshold, and the proximity distance change rate is less than or equalto a second threshold, the mobile terminal collects voice using amicrophone array in the mobile terminal, and acquires a speech signalfrom the microphone array; or when the proximity distance is greaterthan a first threshold, or the proximity distance change rate is greaterthan a second threshold, the mobile terminal collects voice using awearable voice collection apparatus, acquires a speech signal from thewearable voice collection apparatus, and recognizes the speech signal.Compared with the prior art in which a speech signal is acquired from anelectronic skin tattoo regardless of a distance between a user and amobile terminal, in this solution, a suitable voice collection apparatusis selected according to an orientation/motion status of a mobileterminal, and voice is collected using the suitable voice collectionapparatus in different scenarios, to obtain a speech signal, whichimproves a precision rate of speech recognition.

Further, in a specific implementation manner, based on the solutionshown in FIG. 2A, this embodiment of the present disclosure furtherprovides a specific solution of the speech recognition method, and inthis solution, the orientation/motion status includes a proximitydistance, a proximity distance change rate, a horizontal tilt, ahorizontal tilt change rate, an acceleration change rate, and an azimuthchange rate. In this solution, a process of performing step 201 in thesolution shown in FIG. 2A is described in further detail, and step 201may be implemented as steps 2011 c to 2013 c. As shown in FIG. 3C, step201 includes:

2011 c. The mobile terminal acquires the orientation/motion status ofthe mobile terminal.

The orientation/motion status includes a proximity distance, a proximitydistance change rate, a horizontal tilt, a horizontal tilt change rate,an acceleration change rate, and an azimuth change rate.

2012 c. If the proximity distance is less than or equal to a firstthreshold, the proximity distance change rate is less than or equal to asecond threshold, the horizontal tilt is within a preset range, thehorizontal tilt change rate is less than or equal to a third threshold,the acceleration change rate is less than or equal to a fourththreshold, and the azimuth change rate is less than or equal to a fifththreshold, the mobile terminal collects voice using the microphone arrayin the mobile terminal, and acquires the speech signal from themicrophone array in the mobile terminal.

The first threshold, the second threshold, the third threshold, thefourth threshold, the fifth threshold, and the preset range of thehorizontal tilt may be set by the user according to an actual case, ormay be automatically set by the mobile terminal according to a historyrecord.

It should be noted that the orientation/motion status such as theproximity distance, the proximity distance change rate, the horizontaltilt, the horizontal tilt change rate, the acceleration change rate, andthe azimuth change rate may be measured using various sensors in themobile terminal. A proximity sensor, an acceleration sensor, anelectronic compass sensor, and the like in the mobile terminalperiodically perform measurement, to obtain the proximity distance andthe horizontal tilt, and obtains by means of calculation the proximitydistance change rate, the horizontal tilt change rate, the accelerationchange rate, and the azimuth change rate in multiple continuousmeasurement periods. For example, a measurement frequency is 40 Hz, thatis, a measurement period is 1.5 s. Preferably, a measurement frequencyranges from 20 Hz to 40 Hz.

2013 c. If the proximity distance is greater than a first threshold, theproximity distance change rate is greater than a second threshold, thehorizontal tilt exceeds a preset range, the horizontal tilt change rateis greater than a third threshold, the acceleration change rate isgreater than a fourth threshold, or the azimuth change rate is greaterthan a fifth threshold, the mobile terminal collects voice using thewearable voice collection apparatus, acquires the speech signal from thewearable voice collection apparatus, and processes the speech signal.

The mobile terminal may periodically measure data of theorientation/motion status using each sensor, and obtain average valuesand change rates of proximity distances, horizontal tilts,accelerations, and azimuths in multiple continuous periods.Specifically, a correspondence between data measured by each sensor anda voice collection apparatus for voice collection is shown in Table 3:

TABLE 3 Voice collection Electronic compass apparatus for voiceProximity sensor Acceleration sensor sensor collection In a measurementIn a measurement period, an In a measurement Microphone array period, anaverage average value of horizontal tilts is period, an azimuth value ofproximity within a preset range, a horizontal change rate is lessdistances is less tilt change rate is less than or than or equal to athan or equal to a equal to a third threshold, and an fifth thresholdfirst threshold, and acceleration change rate is less a proximity thanor equal to a fourth threshold distance change In a measurement period,an Any case Wearable voice rate is less than or average value ofhorizontal tilts collection apparatus equal to a second exceeds a presetrange, a threshold horizontal tilt change rate is less than or equal toa third threshold, and an acceleration change rate is less than or equalto a fourth threshold In a measurement period, an Any case Wearablevoice average value of horizontal tilts is collection apparatus within apreset range, a horizontal tilt change rate is greater than a thirdthreshold, and an acceleration change rate is less than or equal to afourth threshold In a measurement period, an Any case Wearable voiceaverage value of horizontal tilts is collection apparatus within apreset range, a horizontal tilt change rate is less than or equal to athird threshold, and an acceleration change rate is greater than afourth threshold Any case In a measurement Wearable voice period, anazimuth collection apparatus change rate is greater than a fifththreshold In a measurement Any case Any case Wearable voice period, anaverage collection apparatus value of proximity distances is less thanor equal to a first threshold, and a proximity distance change rate isgreater than a second threshold In a measurement Any case Any caseWearable voice period, an average collection apparatus value ofproximity distances is greater than a first threshold, and a proximitydistance change rate is less than or equal to a second threshold In ameasurement Any case Any case Wearable voice period, an averagecollection apparatus value of proximity distances is greater than afirst threshold, and a proximity distance change rate is greater than asecond threshold

The mobile terminal measures related data of the orientation/motionstatus using various sensors, and the mobile terminal determines, withreference to the data measured by the various sensors, the voicecollection apparatus for voice collection. For example, when the mobileterminal is placed on a table with the screen of the mobile terminalfacing downwards, the proximity sensor determines that a proximitydistance between a measured target and the mobile terminal is very shortin multiple continuous measurement periods, but the mobile terminal doesnot immediately determine that a working mode is a short-range mode, andinstead, reads data measured by the acceleration sensor and theelectronic compass sensor in the multiple continuous measurementperiods, to assist in determining an actual case of the mobile terminal.The acceleration sensor may recognize that the horizontal tilt of themobile terminal is approximately 360 degrees instead of 60 degrees to165 degrees in normal use of the mobile terminal. In this case, themobile terminal selects the wearable voice collection apparatus tocollect voice. For another example, in a case in which a table on whichthe mobile terminal is placed shakes, or the mobile terminal vibrates toprompt an incoming call, to avoid interference, it is unsuitable to usethe speech signal acquired from the microphone array to perform speechrecognition and a speech service. In this case, the acceleration sensordetects a vibration signal in multiple continuous measurement periods,to obtain data of the orientation/motion status, so that the mobileterminal determines and uses a correct voice collection apparatus. Inthis case, in multiple continuous measurement periods, the mobileterminal determines, according to change rates of data of theorientation/motion status of the sensors and various suitable presetthresholds and preset ranges, the voice collection apparatus for voicecollection.

According to the speech recognition method provided in this embodimentof the present disclosure, a mobile terminal can acquire anorientation/motion status of the mobile terminal, and determine,according to a proximity distance, a proximity distance change rate, ahorizontal tilt, a horizontal tilt change rate, an acceleration changerate, and an azimuth change rate in the orientation/motion status, avoice collection apparatus for voice collection; when the proximitydistance is less than or equal to a first threshold, the proximitydistance change rate is less than or equal to a second threshold, thehorizontal tilt is within a preset range, the horizontal tilt changerate is less than or equal to a third threshold, the acceleration changerate is less than or equal to a fourth threshold, and the azimuth changerate is less than or equal to a fifth threshold, the mobile terminalcollects voice using a microphone array in the mobile terminal; or whenthe proximity distance is greater than a first threshold, the proximitydistance change rate is greater than a second threshold, the horizontaltilt exceeds a preset range, the horizontal tilt change rate is greaterthan a third threshold, the acceleration change rate is greater than afourth threshold, or the azimuth change rate is greater than a fifththreshold, the mobile terminal collects voice using a wearable voicecollection apparatus, acquires a speech signal from the wearable voicecollection apparatus, and recognizes the speech signal. Compared withthe prior art in which a speech signal is acquired from an electronicskin tattoo regardless of a distance between a user and a mobileterminal, in this solution, a suitable voice collection apparatus isselected according to an orientation/motion status of a mobile terminal,and voice is collected using the suitable voice collection apparatus indifferent scenarios, to obtain a speech signal. In this way, it isavoided that resource consumption occurs in a process of collecting, bya mobile terminal, voice using an unsuitable voice collection apparatusin different scenarios, and a precision rate of speech recognition isimproved. In addition, to avoid that a working mode determined accordingto a proximity distance and a proximity distance change rate isinsufficiently accurate, in this embodiment of the present disclosure,the orientation/motion status is optimized, more detailed data of theorientation/motion status is acquired, and a suitable voice collectionapparatus for voice collection is determined according to a proximitydistance, a proximity distance change rate, a horizontal tilt, ahorizontal tilt change rate, an acceleration change rate, and an azimuthchange rate, which further improves a precision rate of speechrecognition.

Further, in a specific implementation manner, based on the solutionshown in FIG. 2A, this embodiment of the present disclosure furtherprovides a specific solution of the speech recognition method, and inthis solution, the orientation/motion status includes a proximitydistance, a proximity distance change rate, a horizontal tilt, ahorizontal tilt change rate, an acceleration change rate, and an azimuthchange rate. In this solution, a process of performing step 201 in thesolution shown in FIG. 2A is described in further detail, and step 201may be implemented as steps 2011 d to 2014 d. As shown in FIG. 3D, step201 includes:

2011 d. The mobile terminal acquires the orientation/motion status ofthe mobile terminal.

The orientation/motion status includes a proximity distance, a proximitydistance change rate, a horizontal tilt, a horizontal tilt change rate,an acceleration change rate, and an azimuth change rate.

2012 d. If the proximity distance change rate is greater than a secondthreshold, the horizontal tilt exceeds a preset range, the horizontaltilt change rate is greater than a third threshold, the accelerationchange rate is greater than a fourth threshold, or the azimuth changerate is greater than a fifth threshold, detect whether the proximitydistance is greater than the first threshold.

The first threshold, the second threshold, the third threshold, thefourth threshold, the fifth threshold, and the preset range of thehorizontal tilt may be set by the user according to an actual case, ormay be automatically set by the mobile terminal according to a historyrecord.

2013 d. If the proximity distance is greater than the first threshold,the mobile terminal acquires the speech signal from the wearable voicecollection apparatus, and processes the speech signal.

2014 d. If the proximity distance is less than or equal to the firstthreshold, the mobile terminal collects voice using the microphone arrayin the mobile terminal and the wearable voice collection apparatus,acquires a mixed speech signal, and processes the mixed speech signal.

The mixed speech signal is obtained by converting voice collected by themicrophone array in the mobile terminal and the wearable voicecollection apparatus. The mobile terminal simultaneously receives speechsignals collected by the microphone array in the mobile terminal and thewearable voice collection apparatus, and performs a subtractionoperation to subtract the speech signal collected by the wearable voicecollection apparatus from the speech signal collected by the microphonearray, to effectively eliminate noise, and reserve a speech signal of auser.

FIG. 4 shows a working principle of simultaneously receiving, by themobile terminal, speech signals collected by the microphone array in themobile terminal and the wearable voice collection apparatus. Themicrophone array in the mobile terminal and the wearable voicecollection apparatus collect user voice, non-user voice, and ambientnoise. User voice, non-user voice, and ambient noise collected by themicrophone array in the mobile terminal are transferred to a digitalfilter, and at the same time user voice, non-user voice, and ambientnoise collected by the wearable voice collection apparatus aretransferred to the digital filter using a short-range wirelesscommunications module. The wearable voice collection apparatus isusually insensitive to non-user voice and ambient noise; therefore,voice collected by the wearable voice collection apparatus includes lessnon-user voice and ambient noise. The two channels of collected voiceare provided to the digital filter, non-user voice and ambient noise areeliminated using a time-domain Fourier transform filtering operation,and a relatively clean speech signal of a user is output. In asubsequent process, a speech waveform of the user may be obtained bymeans of time-domain inverse Fourier transform of an applicationprogram, to perform a subsequent process of voiceprint recognition andsemantic recognition.

It should be noted that when the mobile terminal simultaneously receivesthe speech signals collected by the microphone array in the mobileterminal and the wearable voice collection apparatus, the mobileterminal maintains a connection to the wearable voice collectionapparatus, and the mobile terminal may supply electric power to thewearable voice collection apparatus by means of short-range wirelesscharging, to compensate for the shortage in energy supply of thewearable voice collection apparatus. This manner of supplying electricpower may be implemented by configuring a short-range wireless chargingmodule and an energy storage module for the wearable voice collectionapparatus.

It should be noted that in this embodiment of the present disclosure,specifically, a correspondence between data measured by each sensor anda voice collection apparatus for voice collection is shown in Table 4:

TABLE 4 Voice collection Electronic compass apparatus for voiceProximity sensor Acceleration sensor sensor collection In a measurementIn a measurement period, an In a measurement Microphone array period, anaverage average value of horizontal tilts period, an azimuth value ofproximity is within a preset range, a change rate is less distances isless than horizontal tilt change rate is less than or equal to a orequal to a first than or equal to a third threshold, fifth thresholdthreshold, and a and an acceleration change rate is proximity distanceless than or equal to a fourth change rate is less threshold than orequal to a In a measurement period, an Any case Microphone array secondthreshold average value of horizontal tilts and wearable voice exceeds apreset range, a collection horizontal tilt change rate is less apparatusthan or equal to a third threshold, and an acceleration change rate isless than or equal to a fourth threshold In a measurement period, an Anycase Microphone array average value of horizontal tilts and wearablevoice is within a preset range, a collection horizontal tilt change rateis apparatus greater than a third threshold, and an acceleration changerate is less than or equal to a fourth threshold In a measurementperiod, an Any case Microphone array average value of horizontal tiltsand wearable voice is within a preset range, a collection horizontaltilt change rate is less apparatus than or equal to a third threshold,and an acceleration change rate is greater than a fourth threshold Anycase In a measurement Microphone array period, an azimuth and wearablevoice change rate is collection greater than a fifth apparatus thresholdIn a measurement Any case Any case Microphone array period, an averageand wearable voice value of proximity collection distances is less thanapparatus or equal to a first threshold, and a proximity distance changerate is greater than a second threshold In a measurement Any case Anycase Wearable voice period, an average collection value of proximityapparatus distances is greater than a first threshold, and a proximitydistance change rate is less than or equal to a second threshold In ameasurement Any case Any case Wearable voice period, an averagecollection value of proximity apparatus distances is greater than afirst threshold, and a proximity distance change rate is greater than asecond threshold

According to the speech recognition method provided in this embodimentof the present disclosure, a mobile terminal can acquire anorientation/motion status of the mobile terminal, and determine,according to a proximity distance, a proximity distance change rate, ahorizontal tilt, a horizontal tilt change rate, an acceleration changerate, and an azimuth change rate in the orientation/motion status, avoice collection apparatus for voice collection; when the proximitydistance change rate is greater than a second threshold, the horizontaltilt exceeds a preset range, the horizontal tilt change rate is greaterthan a third threshold, the acceleration change rate is greater than afourth threshold, or the azimuth change rate is greater than a fifththreshold, the mobile terminal detects whether the proximity distance isgreater than a first threshold; and if the proximity distance is greaterthan the first threshold, the mobile terminal acquires a speech signalfrom a wearable voice collection apparatus, and if the proximitydistance is less than or equal to the first threshold, the mobileterminal collects voice using a microphone array in the mobile terminaland a wearable voice collection apparatus, acquires a mixed speechsignal, and recognizes the speech signal. Compared with the prior art inwhich a speech signal is acquired from an electronic skin tattooregardless of a distance between a user and a mobile terminal, in thissolution, a suitable voice collection apparatus is selected according toan orientation/motion status of a mobile terminal, and voice iscollected using the suitable voice collection apparatus in differentscenarios, to obtain a speech signal. In this way, it is avoided thatresource consumption occurs in a process of collecting, by a mobileterminal, voice using an unsuitable voice collection apparatus indifferent scenarios, and a precision rate of speech recognition isimproved. In addition, to avoid that a working mode determined accordingto a proximity distance and a proximity distance change rate isinsufficiently accurate, in this embodiment of the present disclosure,the orientation/motion status is optimized, more detailed data of theorientation/motion status is acquired, and a suitable voice collectionapparatus for voice collection is determined according to a proximitydistance, a proximity distance change rate, a horizontal tilt, ahorizontal tilt change rate, an acceleration change rate, and an azimuthchange rate, which further improves a precision rate of speechrecognition. Moreover, in a case in which there is a moderate distancebetween a mobile terminal and a user, or in a case in which an error maybe caused when only a microphone array or only a wearable voicecollection apparatus is used, a mixed speech signal is acquired from amicrophone array or a wearable voice collection apparatus, which furtherimproves a precision rate of speech recognition.

An embodiment of the present disclosure provides a mobile terminal 300,the mobile terminal 300 includes a microphone array, and as shown inFIG. 5A, the mobile terminal 300 includes a collection apparatusdetermining module 301 configured to acquire an orientation/motionstatus of the mobile terminal, and determine, according to theorientation/motion status, a voice collection apparatus for voicecollection.

The orientation/motion status indicates an orientation or a motionstatus of the mobile terminal. The voice collection apparatus includes awearable voice collection apparatus or the microphone array. Thecollection apparatus may include a speech acquiring module 302configured to acquire a speech signal from the voice collectionapparatus.

The speech signal is obtained by converting voice collected by the voicecollection apparatus. A speech recognition module 303 configured toperform recognition, which may be voiceprint recognition and semanticrecognition, on the speech signal. According to the mobile terminalprovided in this embodiment of the present disclosure, the mobileterminal can acquire an orientation/motion status of the mobileterminal, and determine, according to the orientation/motion status, avoice collection apparatus for voice collection; acquire a speech signalfrom the voice collection apparatus; and recognize the speech signal.Compared with the prior art in which a speech signal is acquired from anelectronic skin tattoo regardless of a distance between a user and amobile terminal, in this solution, a suitable voice collection apparatusis selected according to an orientation/motion status of a mobileterminal, and voice is collected using the suitable voice collectionapparatus in different scenarios, to obtain a speech signal, whichimproves a precision rate of speech recognition.

In a specific embodiment, in a case in which the orientation/motionstatus of the mobile terminal 300 is a distance between the mobileterminal 300 and a user, as shown in FIG. 5B, the mobile terminal 300includes a collection apparatus determining module 301 b configured toacquire a distance to a user, and determine, according to the distanceto the user, a voice collection apparatus for voice collection, wherethe voice collection apparatus includes the microphone array in themobile terminal or a wearable voice collection apparatus.

During implementation, in an embodiment, the collection apparatusdetermining module 301 b detects the distance to the user using asensor. For example, the distance between the mobile terminal and theuser is determined by detecting a moving status or a location of theuser. Alternatively, the user carries an accessory module, and thedistance between the mobile terminal and the user is determined bydetecting a distance between the mobile terminal and the module. In aspecific application of this embodiment, in a manner, the distance tothe user is determined, and if the distance to the user is less than adistance threshold, it is determined that voice is to be collected usingthe microphone array, and in another manner, the distance to the user isdetermined, and if the distance to the user is not less than a distancethreshold, it is determined that voice is to be collected using thewearable voice collection apparatus. The collection apparatus mayinclude: a speech acquiring module 302 b configured to acquire a speechsignal from the voice collection apparatus, where the speech signal isobtained by converting voice collected by the voice collectionapparatus; and a speech recognition module 303 b configured to recognizethe speech signal.

If voice is to be collected using the wearable voice collectionapparatus, the wearable voice collection apparatus may be an electronicskin tattoo worn on the throat of a user, or may be a bone conductionmicrophone worn in a cochlea. The speech signal may be recognized bymeans of voiceprint recognition and semantic recognition, and in thisembodiment, the mobile terminal can recognize voice more accurately, andalso determine a voice source more accurately.

Further, during implementation of a specific solution, theorientation/motion status includes at least a proximity distance.

The collection apparatus determining module 301 is configured to acquirethe proximity distance, and if the proximity distance is less than orequal to a first threshold, determine to collect voice using themicrophone array.

The collection apparatus determining module 301 is configured toacquirethe proximity distance, and if the proximity distance is greater than afirst threshold, determine to collect voice using the wearable voicecollection apparatus.

According to the mobile terminal provided in this embodiment of thepresent disclosure, the mobile terminal can acquire anorientation/motion status of the mobile terminal, where theorientation/motion status includes at least a proximity distance; whenthe proximity distance is less than or equal to a first threshold, themobile terminal collects voice using a microphone array in the mobileterminal, and acquires a speech signal from the microphone array; orwhen the proximity distance is greater than a first threshold, themobile terminal collects voice using a wearable voice collectionapparatus, acquires a speech signal from the wearable voice collectionapparatus, and recognizes the speech signal. Compared with the prior artin which a speech signal is acquired from an electronic skin tattooregardless of a distance between a user and a mobile terminal, in thissolution, a suitable voice collection apparatus is selected according toan orientation/motion status of a mobile terminal, and voice iscollected using the suitable voice collection apparatus in differentscenarios, to obtain a speech signal. In this way, it is avoided thatresource consumption occurs in a process of collecting, by a mobileterminal, voice using an unsuitable voice collection apparatus indifferent scenarios, and a precision rate of speech recognition isimproved.

Further, during implementation of another specific solution, theorientation/motion status includes a proximity distance and a proximitydistance change rate.

The collection apparatus determining module 301 is configured toacquirethe proximity distance and the proximity distance change rate, and ifthe proximity distance is less than or equal to a first threshold andthe proximity distance change rate is less than or equal to a secondthreshold, determine to collect voice using the microphone array.

The collection apparatus determining module 301 is further configured toacquire the proximity distance and the proximity distance change rate,and if the proximity distance is greater than a first threshold or theproximity distance change rate is greater than a second threshold,determine to collect voice using the wearable voice collectionapparatus.

According to the mobile terminal provided in this embodiment of thepresent disclosure, the mobile terminal can acquire anorientation/motion status of the mobile terminal, and determine,according to a proximity distance and a proximity distance change ratein the orientation/motion status, a voice collection apparatus for voicecollection; when the proximity distance is less than or equal to a firstthreshold and the proximity distance change rate is less than or equalto a second threshold, the mobile terminal collects voice using amicrophone array in the mobile terminal, and acquires a speech signalfrom the microphone array; or when the proximity distance is greaterthan a first threshold or the proximity distance change rate is greaterthan a second threshold, the mobile terminal collects voice using awearable voice collection apparatus, acquires a speech signal from thewearable voice collection apparatus, and recognizes the speech signal.Compared with the prior art in which a speech signal is acquired from anelectronic skin tattoo regardless of a distance between a user and amobile terminal, in this solution, a suitable voice collection apparatusis selected according to an orientation/motion status of a mobileterminal, and voice is collected using the suitable voice collectionapparatus in different scenarios, to obtain a speech signal. In thisway, it is avoided that resource consumption occurs in a process ofcollecting, by a mobile terminal, voice using an unsuitable voicecollection apparatus in different scenarios, and a precision rate ofspeech recognition is improved.

Optionally, during implementation of still another specific solution,the orientation/motion status includes a proximity distance, a proximitydistance change rate, a horizontal tilt, a horizontal tilt change rate,an acceleration change rate, and an azimuth change rate.

The collection apparatus determining module 301 is configured to acquirethe proximity distance, the proximity distance change rate, thehorizontal tilt, the horizontal tilt change rate, the accelerationchange rate, and the azimuth change rate, and if the proximity distanceis less than or equal to a first threshold, the proximity distancechange rate is less than or equal to a second threshold, the horizontaltilt is within a preset range, the horizontal tilt change rate is lessthan or equal to a third threshold, the acceleration change rate is lessthan or equal to a fourth threshold, and the azimuth change rate is lessthan or equal to a fifth threshold, determine to collect voice using themicrophone array.

Alternatively, the collection apparatus determining module 301 isfurther configured to acquire the proximity distance, the proximitydistance change rate, the horizontal tilt, the horizontal tilt changerate, the acceleration change rate, and the azimuth change rate, and ifthe proximity distance is greater than a first threshold, the proximitydistance change rate is greater than a second threshold, the horizontaltilt exceeds a preset range, the horizontal tilt change rate is greaterthan a third threshold, the acceleration change rate is greater than afourth threshold, or the azimuth change rate is greater than a fifththreshold, determine to collect voice using the wearable voicecollection apparatus.

According to the mobile terminal provided in this embodiment of thepresent disclosure, the mobile terminal can acquire anorientation/motion status of the mobile terminal, and determine,according to a proximity distance, a proximity distance change rate, ahorizontal tilt, a horizontal tilt change rate, an acceleration changerate, and an azimuth change rate in the orientation/motion status, avoice collection apparatus for voice collection; when the proximitydistance is less than or equal to a first threshold, the proximitydistance change rate is less than or equal to a second threshold, thehorizontal tilt is within a preset range, the horizontal tilt changerate is less than or equal to a third threshold, the acceleration changerate is less than or equal to a fourth threshold, and the azimuth changerate is less than or equal to a fifth threshold, the mobile terminalcollects voice using a microphone array in the mobile terminal; or whenthe proximity distance is greater than a first threshold, the proximitydistance change rate is greater than a second threshold, the horizontaltilt exceeds a preset range, the horizontal tilt change rate is greaterthan a third threshold, the acceleration change rate is greater than afourth threshold, or the azimuth change rate is greater than a fifththreshold, the mobile terminal collects voice using a wearable voicecollection apparatus, acquires a speech signal from the wearable voicecollection apparatus, and recognizes the speech signal. Compared withthe prior art in which a speech signal is acquired from an electronicskin tattoo regardless of a distance between a user and a mobileterminal, in this solution, a suitable voice collection apparatus isselected according to an orientation/motion status of a mobile terminal,and voice is collected using the suitable voice collection apparatus indifferent scenarios, to obtain a speech signal. In this way, it isavoided that resource consumption occurs in a process of collecting, bya mobile terminal, voice using an unsuitable voice collection apparatusin different scenarios, and a precision rate of speech recognition isimproved. In addition, to avoid that a working mode determined accordingto a proximity distance and a proximity distance change rate isinsufficiently accurate, in this embodiment of the present disclosure,the orientation/motion status is optimized, more detailed data of theorientation/motion status is acquired, and a suitable voice collectionapparatus for voice collection is determined according to a proximitydistance, a proximity distance change rate, a horizontal tilt, ahorizontal tilt change rate, an acceleration change rate, and an azimuthchange rate, which further improves a precision rate of speechrecognition.

Optionally, during implementation of yet another specific solution, theorientation/motion status includes a proximity distance, a proximitydistance change rate, a horizontal tilt, a horizontal tilt change rate,an acceleration change rate, and an azimuth change rate.

The collection apparatus determining module 301 is configured to:acquire the proximity distance, the proximity distance change rate, thehorizontal tilt, the horizontal tilt change rate, the accelerationchange rate, and the azimuth change rate, if the proximity distancechange rate is greater than a second threshold, the horizontal tiltexceeds a preset range, the horizontal tilt change rate is greater thana third threshold, the acceleration change rate is greater than a fourththreshold, or the azimuth change rate is greater than a fifth threshold,detect whether the proximity distance is greater than a first threshold,and if the proximity distance is greater than the first threshold,determine to collect voice using the wearable voice collectionapparatus.

Alternatively, the collection apparatus determining module 301 isconfigured to acquire the proximity distance, the proximity distancechange rate, the horizontal tilt, the horizontal tilt change rate, theacceleration change rate, and the azimuth change rate, if the proximitydistance change rate is greater than a second threshold, the horizontaltilt exceeds a preset range, the horizontal tilt change rate is greaterthan a third threshold, the acceleration change rate is greater than afourth threshold, or the azimuth change rate is greater than a fifththreshold, detect whether the proximity distance is greater than a firstthreshold, and if the proximity distance is less than or equal to thefirst threshold, determine to collect voice using the microphone arrayin the mobile terminal and the wearable voice collection apparatus, andacquire a mixed speech signal.

According to the mobile terminal provided in this embodiment of thepresent disclosure, the mobile terminal can acquire anorientation/motion status of the mobile terminal, and determine,according to a proximity distance, a proximity distance change rate, ahorizontal tilt, a horizontal tilt change rate, an acceleration changerate, and an azimuth change rate in the orientation/motion status, avoice collection apparatus for voice collection; when the proximitydistance change rate is greater than a second threshold, the horizontaltilt exceeds a preset range, the horizontal tilt change rate is greaterthan a third threshold, the acceleration change rate is greater than afourth threshold, or the azimuth change rate is greater than a fifththreshold, the mobile terminal detects whether the proximity distance isgreater than a first threshold; and if the proximity distance is greaterthan the first threshold, the mobile terminal acquires a speech signalfrom a wearable voice collection apparatus, or if the proximity distanceis less than or equal to the first threshold, the mobile terminalcollects voice using a microphone array in the mobile terminal and awearable voice collection apparatus, acquires a mixed speech signal, andrecognizes the speech signal. Compared with the prior art in which aspeech signal is acquired from an electronic skin tattoo regardless of adistance between a user and a mobile terminal, in this solution, asuitable voice collection apparatus is selected according to anorientation/motion status of a mobile terminal, and voice is collectedusing the suitable voice collection apparatus in different scenarios, toobtain a speech signal. In this way, it is avoided that resourceconsumption occurs in a process of collecting, by a mobile terminal,voice using an unsuitable voice collection apparatus in differentscenarios, and a precision rate of speech recognition is improved. Inaddition, to avoid that a working mode determined according to aproximity distance and a proximity distance change rate isinsufficiently accurate, in this embodiment of the present disclosure,the orientation/motion status is optimized, more detailed data of theorientation/motion status is acquired, and a suitable voice collectionapparatus for voice collection is determined according to a proximitydistance, a proximity distance change rate, a horizontal tilt, ahorizontal tilt change rate, an acceleration change rate, and an azimuthchange rate, which further improves a precision rate of speechrecognition. Moreover, in a case in which there is a moderate distancebetween a mobile terminal and a user, or in a case in which it isunsuitable to use only a microphone array or only a wearable voicecollection apparatus, a mixed speech signal is acquired from amicrophone array or a wearable voice collection apparatus, which furtherimproves a precision rate of speech recognition.

An embodiment of the present disclosure further provides a smartphone400. As shown in FIG. 6, it should be understood that the smartphone 400shown in FIG. 6 is only an example of the mobile terminal, and thesmartphone 400 may have more or fewer components than these shown inFIG. 6, may combine two or more components, or may have a differentcomponent configuration. The components shown in FIG. 6 may beimplemented by hardware that includes one or more signal processorsand/or application-specific integrated circuits, software, or acombination of hardware and software.

A smartphone 400 is used as an example to provide a detaileddescription. As shown in FIG. 6, the smartphone 400 includes at leastone processor 401, a memory 402, a sensor 403, an input/output (I/O)interface 404, a positioning module 405, a communications module 406, atleast one communications bus 407, and a communications antenna 408. Thesmartphone 400 further includes other functional components such as abattery module, a wired/wireless charging interface, and the like. Thecommunication bus 407 is configured to implement connection andcommunication between these components. The memory 402 may include anon-volatile solid-state memory and/or a dynamic non-volatile storagedevice such as a flash memory or a rotatable hard disk drive. The sensor403 includes various sensors such as a proximity sensor, an accelerationsensor, an electronic compass sensor, a light sensor, and the likeconfigured to measure orientation/motion status information of thesmartphone 400. The positioning module 405 may be configured to performfunctions such as Global Positioning System (GPS) positioning, WLANpositioning, and base station positioning, to acquire geographicalinformation such as a location and a height, and the like of thesmartphone 400. The communications module 406 may be configured toperform long-range communication, for example, Global System for Mobilecommunication (GSM), Code Division Multiple Access (CDMA), GeneralPacket Radio Service (GPRS), and Enhanced Data Rate for GSM Evolution(EDGE), third generation (3G) technologies such as Wideband CodeDivision Multiple Access (WCDMA) and Time Division-Synchronous CodeDivision Multiple Access (TD-SCDMA), and fourth generation (4G)technologies such as Long Term Evolution (LTE). The communicationsmodule 406 may further be configured to perform short-rangecommunication, and may perform short-range wireless communication withanother mobile intelligent terminal or a wearable voice collectionapparatus within a short range, for example, ZigBee®, UWB, Wi-Fi,Bluetooth®, NFC, and infrared communications. The communications antenna408 is configured to receive and send a communication signal.

The I/O interface 404 includes a touchscreen 4041 for displaying andinputting, an I/O keyboard 4042 (optional) for inputting, a microphone4043, that is, the foregoing microphone array, a loudspeaker 4044, andthe like.

The memory 402 includes an operating system 4021 and an applicationprogram 4022. The operating system 4021 includes various operatingsystem programs, and is configured to implement various hardware-basedoperations. The application program 4022 includes various applicationprograms configured to implement functions of various applications. Forexample, a speech recognition program or a speech assistance program canperform security authentication of a user according to a voiceprintcharacteristic of speech input of the user, and can also parse out asemantic meaning from an input speech signal of a user to perform acorresponding function and operation such as photographing, searchingcontacts for a user according to the semantic meaning and making a callor sending a short message service message, or answering a call orreplying to a short message service message.

The memory 402 may be configured to store an orientation/motion status,where the orientation/motion status includes at least a proximitydistance and a proximity distance change rate, and may further include ahorizontal tilt, a horizontal tilt change rate, an acceleration changerate, and an azimuth change rate, and may further be configured to storevoice collected by a voice collection apparatus and a speech signalacquired from the voice collection apparatus.

Further, the memory 402 may further be configured to store a firstthreshold, a second threshold, a third threshold, a fourth threshold, afifth threshold, and a preset range of the horizontal tilt.

Optionally, the memory 402 may further be configured to store a mixedspeech signal.

The processor 401 communicates with various modules and components usingthe bus 407. The sensor 403 detects and acquires the orientation/motionstatus, and the processor 401 determines the voice collection apparatusaccording to the method in the foregoing embodiments. If it isdetermined that the voice collection apparatus is a microphone array,voice is acquired using the microphone 4043, and the voice is convertedinto a speech signal and the speech signal is transmitted to theprocessor 401; or if it is determined that the voice collectionapparatus is a wearable voice collection apparatus, voice collected bythe wearable voice collection apparatus is received using the antenna408, the voice is converted into a speech signal, and the speech signalis transmitted to the processor 401.

According to the smartphone provided in this embodiment of the presentdisclosure, the smartphone can acquire an orientation/motion status ofthe smartphone; may determine, according to a proximity distance in theorientation/motion status, whether a voice collection apparatus forvoice collection is a microphone array or a wearable voice collectionapparatus, and acquire a speech signal from the voice collectionapparatus; or may determine, according to a proximity distance and aproximity distance change rate in the orientation/motion status, whethera voice collection apparatus for voice collection is a microphone arrayor a wearable voice collection apparatus, and acquire a speech signalfrom the voice collection apparatus; or may determine, according to aproximity distance, a proximity distance change rate, a horizontal tilt,a horizontal tilt change rate, an acceleration change rate, and anazimuth change rate in the orientation/motion status, whether a voicecollection apparatus for voice collection is a microphone array or awearable voice collection apparatus, acquire a speech signal from thevoice collection apparatus, and recognize the speech signal. Comparedwith the prior art in which a speech signal is acquired from anelectronic skin tattoo regardless of a distance between a user and asmartphone, in this solution, a suitable voice collection apparatus isselected according to an orientation/motion status of the smartphone,and voice is collected using the suitable voice collection apparatus indifferent scenarios, to obtain a speech signal. In this way, it isavoided that resource consumption occurs in a process of collecting, bya smartphone, voice using an unsuitable voice collection apparatus indifferent scenarios, and a precision rate of speech recognition isimproved. In addition, to avoid that a working mode determined accordingto a proximity distance and a proximity distance change rate isinsufficiently accurate, in this embodiment of the present disclosure,the orientation/motion status is optimized, more detailed data of theorientation/motion status is acquired, and a suitable voice collectionapparatus for voice collection is determined according to a proximitydistance, a proximity distance change rate, a horizontal tilt, ahorizontal tilt change rate, an acceleration change rate, and an azimuthchange rate, which further improves a precision rate of speechrecognition. Moreover, in a case in which there is a moderate distancebetween a mobile terminal and a user, or in a case in which an error maybe caused when only a microphone array or only a wearable voicecollection apparatus is used, a mixed speech signal is acquired from amicrophone array or a wearable voice collection apparatus, which furtherimproves a precision rate of speech recognition.

A person of ordinary skill in the art may understand that all or some ofthe processes of the methods in the embodiments may be implemented by acomputer program instructing relevant hardware. The program may bestored in a computer readable storage medium. When the program runs, theprocesses of the methods in the embodiments are performed. The foregoingstorage medium may include a magnetic disk, an optical disc, a read-onlymemory (ROM), or a random access memory (RAM).

The foregoing descriptions are merely specific embodiments of thepresent disclosure, but are not intended to limit the protection scopeof the present disclosure. Any variation or replacement readily figuredout by a person skilled in the art within the technical scope disclosedin the present disclosure shall fall within the protection scope of thepresent disclosure. Therefore, the protection scope of the presentdisclosure shall be subject to the protection scope of the claims.

What is claimed is:
 1. A speech recognition method, comprising:acquiring, by a mobile terminal, a distance to a user; determining,according to the distance to the user, a voice collection apparatus forvoice collection, wherein the voice collection apparatus comprises amicrophone array in the mobile terminal or a wearable voice collectionapparatus; acquiring, by the mobile terminal, a speech signal from thevoice collection apparatus, wherein the speech signal is obtained byconverting voice collected by the voice collection apparatus; andrecognizing, by the mobile terminal, the speech signal.
 2. The methodaccording to claim 1, wherein determining the voice collection apparatusfor voice collection comprises: determining whether the distance is lessthan a distance threshold, and if the distance is less than the distancethreshold; and determining to use the microphone array as the voicecollection apparatus, wherein acquiring the speech signal from the voicecollection apparatus comprises acquiring, by the mobile terminal, thespeech signal using the microphone array in the mobile terminal, andwherein the speech signal is obtained by converting voice collected bythe microphone array.
 3. The method according to claim 1, whereindetermining the voice collection apparatus for voice collectioncomprises: determining whether the distance is less than the distancethreshold; and determining to use the wearable voice collectionapparatus as the voice collection apparatus when the distance is notless than the distance threshold, wherein acquiring the speech signalfrom the voice collection apparatus comprises acquiring, by the mobileterminal, the speech signal using the wearable voice collectionapparatus, wherein the speech signal is obtained by converting voicecollected by the wearable voice collection apparatus, and whereinrecognizing the speech signal comprises performing, by the mobileterminal, voiceprint recognition and semantic recognition on theacquired speech signal.
 4. A speech recognition method, comprising:acquiring, by a mobile terminal, an orientation/motion status of themobile terminal; determining, according to the orientation/motionstatus, a voice collection apparatus for voice collection, wherein theorientation/motion status indicates an orientation or a motion status ofthe mobile terminal, and wherein the voice collection apparatuscomprises a microphone array in the mobile terminal or a wearable voicecollection apparatus; acquiring, by the mobile terminal, a speech signalfrom the voice collection apparatus, wherein the speech signal isobtained by converting voice collected by the voice collectionapparatus; and recognizing, by the mobile terminal, the speech signal.5. The method according to claim 4, wherein the orientation/motionstatus comprises a proximity distance, and wherein determining the voicecollection apparatus for voice collection comprises: collecting, by themobile terminal, voice using the microphone array in the mobile terminalwhen the proximity distance is less than or equal to a first threshold;and acquiring the speech signal from the microphone array.
 6. The methodaccording to claim 4, wherein the orientation/motion status comprises aproximity distance, and wherein determining the voice collectionapparatus for voice collection comprises: collecting, by the mobileterminal, voice using the wearable voice collection apparatus when theproximity distance is greater than a first threshold; acquiring thespeech signal from the wearable voice collection apparatus; andprocessing the speech signal.
 7. The method according to claim 4,wherein the orientation/motion status comprises a proximity distance anda proximity distance change rate, and wherein determining the voicecollection apparatus for voice collection comprises: collecting, by themobile terminal, voice using the microphone array in the mobile terminalwhen the proximity distance is less than or equal to a first thresholdand the proximity distance change rate is less than or equal to a secondthreshold; and acquiring the speech signal from the microphone array. 8.The method according to claim 4, wherein the orientation/motion statuscomprises a proximity distance and a proximity distance change rate, andwherein determining the voice collection apparatus for voice collectioncomprises: collecting, by the mobile terminal, voice using the wearablevoice collection apparatus when the proximity distance is greater than afirst threshold or the proximity distance change rate is greater than asecond threshold; acquiring the speech signal from the wearable voicecollection apparatus; and processing the speech signal.
 9. The methodaccording to claim 4, wherein the orientation/motion status comprises aproximity distance, a proximity distance change rate, a horizontal tilt,a horizontal tilt change rate, an acceleration change rate, and anazimuth change rate, and wherein determining the voice collectionapparatus for voice collection comprises: collecting, by the mobileterminal, voice using the microphone array in the mobile terminal whenthe proximity distance is less than or equal to a first threshold, theproximity distance change rate is less than or equal to a secondthreshold, the horizontal tilt is within a preset range, the horizontaltilt change rate is less than or equal to a third threshold, theacceleration change rate is less than or equal to a fourth threshold,and the azimuth change rate is less than or equal to a fifth threshold;and acquiring the speech signal from the microphone array in the mobileterminal.
 10. The method according to claim 4, wherein theorientation/motion status comprises a proximity distance, a proximitydistance change rate, a horizontal tilt, a horizontal tilt change rate,an acceleration change rate, and an azimuth change rate, and whereindetermining the voice collection apparatus for voice collectioncomprises: collecting, by the mobile terminal, voice using the wearablevoice collection apparatus when the proximity distance is greater than afirst threshold, the proximity distance change rate is greater than asecond threshold, the horizontal tilt exceeds a preset range, thehorizontal tilt change rate is greater than a third threshold, theacceleration change rate is greater than a fourth threshold, or theazimuth change rate is greater than a fifth threshold; acquiring thespeech signal from the wearable voice collection apparatus; andprocessing the speech signal.
 11. The method according to claim 4,wherein the orientation/motion status comprises a proximity distance, aproximity distance change rate, a horizontal tilt, a horizontal tiltchange rate, an acceleration change rate, and an azimuth change rate,and wherein determining the voice collection apparatus for voicecollection comprises: detecting whether the proximity distance isgreater than a first threshold when the proximity distance change rateis greater than a second threshold, the horizontal tilt exceeds a presetrange, the horizontal tilt change rate is greater than a thirdthreshold, the acceleration change rate is greater than a fourththreshold, or the azimuth change rate is greater than a fifth threshold;and acquiring, by the mobile terminal, the speech signal from thewearable voice collection apparatus when the proximity distance isgreater than the first threshold; and processing the speech signal. 12.The method according to claim 4, wherein the orientation/motion statuscomprises a proximity distance, a proximity distance change rate, ahorizontal tilt, a horizontal tilt change rate, an acceleration changerate, and an azimuth change rate, wherein determining the voicecollection apparatus for voice collection comprises: detecting whetherthe proximity distance is greater than a first threshold when theproximity distance change rate is greater than a second threshold, thehorizontal tilt exceeds a preset range, the horizontal tilt change rateis greater than a third threshold, the acceleration change rate isgreater than a fourth threshold, or the azimuth change rate is greaterthan a fifth threshold; and collecting, by the mobile terminal, voiceusing the microphone array in the mobile terminal and the wearable voicecollection apparatus when the proximity distance is less than or equalto the first threshold; acquiring a mixed speech signal; and processingthe mixed speech signal, and wherein the mixed speech signal is obtainedby converting voice collected by the microphone array in the mobileterminal and the wearable voice collection apparatus.
 13. A mobileterminal, comprising: a microphone array; and a processor coupled to themicrophone array, wherein the processor is configured to: acquire adistance to a user; determine, according to the distance to the user, avoice collection apparatus for voice collection, wherein the voicecollection apparatus comprises the microphone array in the mobileterminal or a wearable voice collection apparatus; acquire a speechsignal from the voice collection apparatus, wherein the speech signal isobtained by converting voice collected by the voice collectionapparatus; and recognize the speech signal.
 14. The mobile terminalaccording to claim 13, wherein the processor is further configured to:acquire a distance to a user; determine whether the distance is lessthan a distance threshold; determine to use the microphone array as thevoice collection apparatus when the distance is less than the distancethreshold; and acquire the speech signal using the microphone array inthe mobile terminal, and wherein the speech signal is obtained byconverting voice collected by the microphone array.
 15. The mobileterminal according to claim 13, wherein the processor is furtherconfigured to: acquire a distance to a user; determine whether thedistance is less than a distance threshold; determine to use thewearable voice collection apparatus as the voice collection apparatuswhen the distance is not less than the distance threshold; acquire thespeech signal using the wearable voice collection apparatus, wherein thespeech signal is obtained by converting voice collected by the wearablevoice collection apparatus; and perform voiceprint recognition andsemantic recognition on the acquired speech signal.
 16. A mobileterminal, comprising: a microphone array; and a processor coupled to themicrophone array, wherein the processor is configured to: acquire anorientation/motion status of the mobile terminal; determine, accordingto the orientation/motion status, a voice collection apparatus for voicecollection, wherein the orientation/motion status indicates anorientation or a motion status of the mobile terminal, and the voicecollection apparatus comprises a wearable voice collection apparatus orthe microphone array; acquire a speech signal from the voice collectionapparatus, wherein the speech signal is obtained by converting voicecollected by the voice collection apparatus; and recognize the speechsignal.
 17. The mobile terminal according to claim 16, wherein theorientation/motion status comprises a proximity distance, and whereinthe processor is further configured to: acquire the proximity distance;and determine to collect voice using the microphone array when theproximity distance is less than or equal to a first threshold.
 18. Themobile terminal according to claim 16, wherein the orientation/motionstatus comprises at least a proximity distance, and wherein theprocessor is further configured to: acquire the proximity distance; anddetermine to collect voice using the wearable voice collection apparatuswhen the proximity distance is greater than a first threshold.
 19. Themobile terminal according to claim 16, wherein the orientation/motionstatus comprises a proximity distance and a proximity distance changerate, and wherein the processor is further configured to: acquire theproximity distance and the proximity distance change rate; and determineto collect voice using the microphone array when the proximity distanceis less than or equal to a first threshold and the proximity distancechange rate is less than or equal to a second threshold.
 20. The mobileterminal according to claim 16, wherein the orientation/motion statuscomprises a proximity distance and a proximity distance change rate, andwherein the processor is further configured to: acquire the proximitydistance and the proximity distance change rate; and determine tocollect voice using the wearable voice collection apparatus when theproximity distance is greater than a first threshold or the proximitydistance change rate is greater than a second threshold.
 21. The mobileterminal according to claim 16, wherein the orientation/motion statuscomprises a proximity distance, a proximity distance change rate, ahorizontal tilt, a horizontal tilt change rate, an acceleration changerate, and an azimuth change rate, and wherein the processor is furtherconfigured to: acquire the proximity distance, the proximity distancechange rate, the horizontal tilt, the horizontal tilt change rate, theacceleration change rate, and the azimuth change rate; and determine tocollect voice using the microphone array when the proximity distance isless than or equal to a first threshold, the proximity distance changerate is less than or equal to a second threshold, the horizontal tilt iswithin a preset range, the horizontal tilt change rate is less than orequal to a third threshold, the acceleration change rate is less than orequal to a fourth threshold, and the azimuth change rate is less than orequal to a fifth threshold.
 22. The mobile terminal according to claim16, wherein the orientation/motion status comprises a proximitydistance, a proximity distance change rate, a horizontal tilt, ahorizontal tilt change rate, an acceleration change rate, and an azimuthchange rate, and wherein the processor is further configured to: acquirethe proximity distance, the proximity distance change rate, thehorizontal tilt, the horizontal tilt change rate, the accelerationchange rate, and the azimuth change rate; and determine to collect voiceusing the wearable voice collection apparatus when the proximitydistance is greater than a first threshold, the proximity distancechange rate is greater than a second threshold, the horizontal tiltexceeds a preset range, the horizontal tilt change rate is greater thana third threshold, the acceleration change rate is greater than a fourththreshold, or the azimuth change rate is greater than a fifth threshold.23. The mobile terminal according to claim 16, wherein theorientation/motion status comprises a proximity distance, a proximitydistance change rate, a horizontal tilt, a horizontal tilt change rate,an acceleration change rate, and an azimuth change rate, and wherein theprocessor is further configured to: acquire the proximity distance, theproximity distance change rate, the horizontal tilt, the horizontal tiltchange rate, the acceleration change rate, and the azimuth change rate;detect whether the proximity distance is greater than a first thresholdwhen the proximity distance change rate is greater than a secondthreshold, the horizontal tilt exceeds a preset range, the horizontaltilt change rate is greater than a third threshold, the accelerationchange rate is greater than a fourth threshold, or the azimuth changerate is greater than a fifth threshold; and determine to collect voiceusing the wearable voice collection apparatus when the proximitydistance is greater than the first threshold.
 24. The mobile terminalaccording to claim 16, wherein the orientation/motion status comprises aproximity distance, a proximity distance change rate, a horizontal tilt,a horizontal tilt change rate, an acceleration change rate, and anazimuth change rate, and wherein the processor is further configured to:acquire the proximity distance, the proximity distance change rate, thehorizontal tilt, the horizontal tilt change rate, the accelerationchange rate, and the azimuth change rate; detect whether the proximitydistance is greater than a first threshold when the proximity distancechange rate is greater than a second threshold, the horizontal tiltexceeds a preset range, the horizontal tilt change rate is greater thana third threshold, the acceleration change rate is greater than a fourththreshold, or the azimuth change rate is greater than a fifth threshold;and determine to collect voice using the microphone array in the mobileterminal and the wearable voice collection apparatus when the proximitydistance is less than or equal to the first threshold; and acquire amixed speech signal.